#!/usr/bin/env python3
###############################################################################
#
# Purpose:  Module for retiling (merging) tiles and building tiled pyramids
# Author:   Christian Meuller, christian.mueller@nvoe.at
# UseDirForEachRow support by Chris Giesey & Elijah Robison
#
###############################################################################
# Copyright (c) 2007, Christian Mueller
# Copyright (c) 2009-2012, Even Rouault <even dot rouault at spatialys.com>
#
# SPDX-License-Identifier: MIT
###############################################################################
import os
import sys

from osgeo import gdal, ogr, osr
from osgeo_utils.auxiliary.util import enable_gdal_exceptions

progress = gdal.TermProgress_nocb


class AffineTransformDecorator:
    """A class providing some useful methods for affine Transformations"""

    def __init__(self, transform):
        self.lrx = None
        self.lry = None
        self.geotransform = transform
        self.scaleX = self.geotransform[1]
        self.scaleY = self.geotransform[5]
        if self.scaleY > 0:
            self.scaleY *= -1
        self.ulx = self.geotransform[0]
        self.uly = self.geotransform[3]

    def pointsFor(self, width, height):
        xlist = []
        ylist = []
        w = self.scaleX * width
        h = self.scaleY * height

        xlist.append(self.ulx)
        ylist.append(self.uly)
        xlist.append(self.ulx + w)
        ylist.append(self.uly)
        xlist.append(self.ulx + w)
        ylist.append(self.uly + h)
        xlist.append(self.ulx)
        ylist.append(self.uly + h)
        return [xlist, ylist]


class DataSetCache:
    """A class for caching source tiles"""

    def __init__(self):
        self.cacheSize = 8
        self.queue = []
        self.dict = {}

    def get(self, name):

        if name in self.dict:
            return self.dict[name]
        result = gdal.Open(name)
        if result is None:
            print("Error opening: %s" % NameError, file=sys.stderr)
            return 1
        if len(self.queue) == self.cacheSize:
            toRemove = self.queue.pop(0)
            del self.dict[toRemove]
        self.queue.append(name)
        self.dict[name] = result
        return result

    def __del__(self):
        for dataset in self.dict.values():
            del dataset
        del self.queue
        del self.dict


class tile_info:
    """A class holding info how to tile"""

    def __init__(self, xsize, ysize, tileWidth, tileHeight, overlap):
        self.width = xsize
        self.height = ysize
        self.tileWidth = tileWidth
        self.tileHeight = tileHeight
        self.countTilesX = 1
        if xsize > tileWidth:
            self.countTilesX += int(
                (xsize - tileWidth + (tileWidth - overlap) - 1) / (tileWidth - overlap)
            )
        self.countTilesY = 1
        if ysize > tileHeight:
            self.countTilesY += int(
                (ysize - tileHeight + (tileHeight - overlap) - 1)
                / (tileHeight - overlap)
            )
        self.overlap = overlap

    def report(self):
        print("tileWidth:   %d" % self.tileWidth)
        print("tileHeight:  %d" % self.tileHeight)
        print("countTilesX: %d" % self.countTilesX)
        print("countTilesY: %d" % self.countTilesY)
        print("overlap:     %d" % self.overlap)


class mosaic_info:
    """A class holding information about a GDAL file or a GDAL fileset"""

    def __init__(self, filename, inputDS):
        """
        Initialize mosaic_info from filename

        filename -- Name of file to read.
        inputDS -- OGR DataSet representing the tile index

        """
        self.TempDriver = gdal.GetDriverByName("MEM")
        self.filename = filename
        self.cache = DataSetCache()
        self.ogrTileIndexDS = inputDS

        self.ogrTileIndexDS.GetLayer().ResetReading()
        # grab the first feature of the temporary tile index created
        feature = self.ogrTileIndexDS.GetLayer().GetNextFeature()
        # the first field is the filename
        imgLocation = feature.GetField(0)

        # get the first tile that exists, extract metadata abut mosaic
        fhInputTile = self.cache.get(imgLocation)

        self.bands = fhInputTile.RasterCount
        self.band_type = fhInputTile.GetRasterBand(1).DataType
        self.projection = fhInputTile.GetProjection()
        self.nodata = fhInputTile.GetRasterBand(1).GetNoDataValue()

        dec = AffineTransformDecorator(fhInputTile.GetGeoTransform())
        self.scaleX = dec.scaleX
        self.scaleY = dec.scaleY
        ct = fhInputTile.GetRasterBand(1).GetRasterColorTable()
        if ct is not None:
            self.ct = ct.Clone()
        else:
            self.ct = None
        self.ci = [0] * self.bands
        for iband in range(self.bands):
            self.ci[iband] = fhInputTile.GetRasterBand(
                iband + 1
            ).GetRasterColorInterpretation()

        extent = self.ogrTileIndexDS.GetLayer().GetExtent()
        self.ulx = extent[0]
        self.uly = extent[3]
        self.lrx = extent[1]
        self.lry = extent[2]

        self.xsize = int(round((self.lrx - self.ulx) / self.scaleX))
        self.ysize = abs(int(round((self.uly - self.lry) / self.scaleY)))

    def __del__(self):
        del self.cache
        del self.ogrTileIndexDS

    def getDataSet(self, minx, miny, maxx, maxy):
        """
        Find a gdal dataset representing a subset of a mosaic, based on a bounding box. Might overlap multiple tiles of the mosaic

        returns GDALDataset or None
        """
        self.ogrTileIndexDS.GetLayer().ResetReading()
        self.ogrTileIndexDS.GetLayer().SetSpatialFilterRect(minx, miny, maxx, maxy)
        features = []
        envelope = None
        # Find the envelope of all features in the dataset
        while True:
            feature = self.ogrTileIndexDS.GetLayer().GetNextFeature()
            if feature is None:
                break
            features.append(feature)
            # on first iteration get envelope of the first feature
            if envelope is None:
                envelope = feature.GetGeometryRef().GetEnvelope()
            else:
                featureEnv = feature.GetGeometryRef().GetEnvelope()
                # then expand the envelop as needed based on other features
                envelope = (
                    min(featureEnv[0], envelope[0]),
                    max(featureEnv[1], envelope[1]),
                    min(featureEnv[2], envelope[2]),
                    max(featureEnv[3], envelope[3]),
                )

        if envelope is None:
            return None

        # get overlap
        envelope = (
            min(minx, envelope[0]),
            max(maxx, envelope[1]),
            min(miny, envelope[2]),
            max(maxy, envelope[3]),
        )

        self.ogrTileIndexDS.GetLayer().SetSpatialFilter(None)

        # merge tiles

        resultSizeX = int((maxx - minx) / self.scaleX + 0.5)
        resultSizeY = int((miny - maxy) / self.scaleY + 0.5)

        resultDS = self.TempDriver.Create(
            "TEMP", resultSizeX, resultSizeY, self.bands, self.band_type, []
        )
        resultDS.SetGeoTransform([minx, self.scaleX, 0, maxy, 0, self.scaleY])

        for bandNr in range(1, self.bands + 1):
            t_band = resultDS.GetRasterBand(bandNr)
            if self.nodata is not None:
                t_band.Fill(self.nodata)
                t_band.SetNoDataValue(self.nodata)

        # for each tile in the index, find its overlap (if any) with the requested bbox, then add it to the returned GDAL dataset if needed.
        for feature in features:
            featureName = feature.GetField(0)
            sourceDS = self.cache.get(featureName)
            dec = AffineTransformDecorator(sourceDS.GetGeoTransform())

            dec.lrx = dec.ulx + sourceDS.RasterXSize * dec.scaleX
            dec.lry = dec.uly + sourceDS.RasterYSize * dec.scaleY

            # Find the intersection region
            tgw_ulx = max(dec.ulx, minx)
            tgw_lrx = min(dec.lrx, maxx)
            if self.scaleY < 0:
                tgw_uly = min(dec.uly, maxy)
                tgw_lry = max(dec.lry, miny)
            else:
                tgw_uly = max(dec.uly, maxy)
                tgw_lry = min(dec.lry, miny)

            # Compute source window in pixel coordinates.
            sw_xoff = int((tgw_ulx - dec.ulx) / dec.scaleX + 0.5)
            sw_yoff = int((tgw_uly - dec.uly) / dec.scaleY + 0.5)
            sw_xsize = (
                min(sourceDS.RasterXSize, int((tgw_lrx - dec.ulx) / dec.scaleX + 0.5))
                - sw_xoff
            )
            sw_ysize = (
                min(sourceDS.RasterYSize, int((tgw_lry - dec.uly) / dec.scaleY + 0.5))
                - sw_yoff
            )
            if sw_xsize <= 0 or sw_ysize <= 0:
                continue

            # Compute target window in pixel coordinates
            tw_xoff = int((tgw_ulx - minx) / self.scaleX + 0.5)
            tw_yoff = int((tgw_uly - maxy) / self.scaleY + 0.5)
            tw_xsize = (
                min(resultDS.RasterXSize, int((tgw_lrx - minx) / self.scaleX + 0.5))
                - tw_xoff
            )
            tw_ysize = (
                min(resultDS.RasterYSize, int((tgw_lry - maxy) / self.scaleY + 0.5))
                - tw_yoff
            )
            if tw_xsize <= 0 or tw_ysize <= 0:
                continue

            assert tw_xoff >= 0
            assert tw_yoff >= 0
            assert sw_xoff >= 0
            assert sw_yoff >= 0

            for bandNr in range(1, self.bands + 1):
                s_band = sourceDS.GetRasterBand(bandNr)
                t_band = resultDS.GetRasterBand(bandNr)
                if self.ct is not None:
                    t_band.SetRasterColorTable(self.ct)
                t_band.SetRasterColorInterpretation(self.ci[bandNr - 1])

                data = s_band.ReadRaster(
                    sw_xoff,
                    sw_yoff,
                    sw_xsize,
                    sw_ysize,
                    tw_xsize,
                    tw_ysize,
                    self.band_type,
                )
                if data is None:
                    print(gdal.GetLastErrorMsg())

                t_band.WriteRaster(tw_xoff, tw_yoff, tw_xsize, tw_ysize, data)

        return resultDS

    def closeDataSet(self, memDS):
        del memDS
        # self.TempDriver.Delete("TEMP")

    def report(self):
        print("Filename: " + self.filename)
        print("File Size: %dx%dx%d" % (self.xsize, self.ysize, self.bands))
        print("Pixel Size: %f x %f" % (self.scaleX, self.scaleY))
        print("UL:(%f,%f)   LR:(%f,%f)" % (self.ulx, self.uly, self.lrx, self.lry))


def getTileIndexFromFiles(g):
    if g.Verbose:
        print("Building internal Index for %d tile(s) ..." % len(g.Names), end=" ")

    ogrTileIndexDS = createTileIndex(
        g.Verbose, "TileIndex", g.TileIndexFieldName, None, g.TileIndexDriverTyp
    )
    firstTile = True
    globalSRS = None
    for inputTile in g.Names:

        fhInputTile = gdal.Open(inputTile)
        if fhInputTile is None:
            return None

        # Check the geotransform has no rotational terms.
        gt = fhInputTile.GetGeoTransform()
        if gt[2] != 0 or gt[4] != 0:
            print(
                "File %s has a geotransform matrix with rotational terms, which is not supported. You may need to use gdalwarp before."
                % inputTile,
                file=sys.stderr,
            )
            return None

        # Check SRS consistency among tiles
        srs = fhInputTile.GetSpatialRef()
        if firstTile:
            globalSRS = srs
        else:
            if globalSRS is not None and srs is None:
                print(
                    "File %s has no SRS whether other tiles have one." % inputTile,
                    file=sys.stderr,
                )
                return None
            elif globalSRS is None and srs is not None:
                print(
                    "File %s has a SRS whether other tiles do not." % inputTile,
                    file=sys.stderr,
                )
                return None
            elif (
                globalSRS is not None and srs is not None and not globalSRS.IsSame(srs)
            ):
                print(
                    "File %s has a SRS different from other tiles." % inputTile,
                    file=sys.stderr,
                )
                return None

        firstTile = False
        dec = AffineTransformDecorator(gt)
        points = dec.pointsFor(fhInputTile.RasterXSize, fhInputTile.RasterYSize)

        addFeature(
            g.TileIndexFieldName, ogrTileIndexDS, inputTile, points[0], points[1]
        )
        del fhInputTile

    if g.Verbose:
        print("finished")
    # ogrTileIndexDS.GetLayer().SyncToDisk()
    return ogrTileIndexDS


def getTargetDir(g, level=-1):
    if level == -1:
        return g.TargetDir
    return g.TargetDir + str(level) + os.sep


def tileImage(g, minfo, ti):
    """

    Tile image in mosaicinfo minfo  based on tileinfo ti

    returns list of created tiles

    """

    g.LastRowIndx = -1
    OGRDS = createTileIndex(
        g.Verbose,
        "TileResult_0",
        g.TileIndexFieldName,
        g.Source_SRS,
        g.TileIndexDriverTyp,
    )

    yRange = list(range(1, ti.countTilesY + 1))
    xRange = list(range(1, ti.countTilesX + 1))

    if not g.Quiet and not g.Verbose:
        progress(0.0)
        processed = 0
        total = len(xRange) * len(yRange)

    for yIndex in yRange:
        for xIndex in xRange:
            offsetY = (yIndex - 1) * (ti.tileHeight - ti.overlap)
            offsetX = (xIndex - 1) * (ti.tileWidth - ti.overlap)
            height = ti.tileHeight
            width = ti.tileWidth
            if g.UseDirForEachRow:
                tilename = getTileName(g, minfo, ti, xIndex, yIndex, 0)
            else:
                tilename = getTileName(g, minfo, ti, xIndex, yIndex)

            if offsetX + width > ti.width:
                width = ti.width - offsetX
            if offsetY + height > ti.height:
                height = ti.height - offsetY

            feature_only = g.Resume and os.path.exists(tilename)
            createTile(
                g, minfo, offsetX, offsetY, width, height, tilename, OGRDS, feature_only
            )

            if not g.Quiet and not g.Verbose:
                processed += 1
                progress(processed / float(total))

    if g.TileIndexName is not None:
        if g.UseDirForEachRow and not g.PyramidOnly:
            shapeName = getTargetDir(g, 0) + g.TileIndexName
        else:
            shapeName = getTargetDir(g) + g.TileIndexName
        copyTileIndexToDisk(g, OGRDS, shapeName)

    if g.CsvFileName is not None:
        if g.UseDirForEachRow and not g.PyramidOnly:
            csvName = getTargetDir(g, 0) + g.CsvFileName
        else:
            csvName = getTargetDir(g) + g.CsvFileName
        copyTileIndexToCSV(g, OGRDS, csvName)

    return OGRDS


def copyTileIndexToDisk(g, OGRDS, fileName):
    SHAPEDS = createTileIndex(
        g.Verbose,
        fileName,
        g.TileIndexFieldName,
        OGRDS.GetLayer().GetSpatialRef(),
        "ESRI Shapefile",
    )
    OGRDS.GetLayer().ResetReading()
    while True:
        feature = OGRDS.GetLayer().GetNextFeature()
        if feature is None:
            break
        newFeature = feature.Clone()
        basename = os.path.basename(feature.GetField(0))
        if g.UseDirForEachRow:
            t = os.path.split(os.path.dirname(feature.GetField(0)))
            basename = t[1] + "/" + basename
        newFeature.SetField(0, basename)
        SHAPEDS.GetLayer().CreateFeature(newFeature)
    closeTileIndex(SHAPEDS)


def copyTileIndexToCSV(g, OGRDS, fileName):
    csvfile = open(fileName, "w")
    OGRDS.GetLayer().ResetReading()
    while True:
        feature = OGRDS.GetLayer().GetNextFeature()
        if feature is None:
            break
        basename = os.path.basename(feature.GetField(0))
        if g.UseDirForEachRow:
            t = os.path.split(os.path.dirname(feature.GetField(0)))
            basename = t[1] + "/" + basename
        csvfile.write(basename)
        geom = feature.GetGeometryRef()
        coords = geom.GetEnvelope()

        for coord in coords:
            csvfile.write(g.CsvDelimiter)
            csvfile.write("%f" % coord)
        csvfile.write("\n")

    csvfile.close()


def _createTempFileName(filename):

    if os.sep != "/":
        filename = filename.replace(os.sep, "/")
    pos = filename.rfind("/")
    if pos < 0:
        return "tmp_" + filename
    return filename[0 : pos + 1] + "tmp_" + filename[pos + 1 :]


def _renameDataset(g, oldName, newName):

    if os.path.exists(newName):
        gdal.PushErrorHandler("CPLQuietErrorHandler")
        g.Driver.Delete(newName)
        gdal.PopErrorHandler()
        # if the above didn't work, use plain OS remove()
        if os.path.exists(newName):
            os.remove(newName)
    g.Driver.Rename(newName, oldName)


def createPyramidTile(
    g, levelMosaicInfo, offsetX, offsetY, width, height, tileName, OGRDS, feature_only
):
    """
    Create an individual tile for the pyramids.

    The levelMosaicInfo object contains data about the mosaic at a given pyramid level.

    Returns None if successful and return 1 if there is an error
    """
    temp_tilename = _createTempFileName(tileName)

    sx = levelMosaicInfo.scaleX * 2
    sy = levelMosaicInfo.scaleY * 2

    dec = AffineTransformDecorator(
        [
            levelMosaicInfo.ulx + offsetX * sx,
            sx,
            0,
            levelMosaicInfo.uly + offsetY * sy,
            0,
            sy,
        ]
    )
    # if -resume flag and the tile is present, add it to the index and exit function
    if feature_only:
        points = dec.pointsFor(width, height)
        addFeature(g.TileIndexFieldName, OGRDS, tileName, points[0], points[1])
        return

    s_fh = levelMosaicInfo.getDataSet(
        dec.ulx, dec.uly + height * dec.scaleY, dec.ulx + width * dec.scaleX, dec.uly
    )
    # if there is no data in that tile area return None
    if s_fh is None:
        return
    # add the new pyramid tile to the index
    points = dec.pointsFor(width, height)
    addFeature(g.TileIndexFieldName, OGRDS, tileName, points[0], points[1])

    if g.BandType is None:
        bt = levelMosaicInfo.band_type
    else:
        bt = g.BandType

    geotransform = [dec.ulx, dec.scaleX, 0, dec.uly, 0, dec.scaleY]

    bands = levelMosaicInfo.bands

    # create target dataset
    if g.MemDriver is None:
        t_fh = g.Driver.Create(temp_tilename, width, height, bands, bt, g.CreateOptions)
    else:
        t_fh = g.MemDriver.Create("", width, height, bands, bt)

    if t_fh is None:
        print("Creation failed, terminating gdal_tile.", file=sys.stderr)
        return 1

    t_fh.SetGeoTransform(geotransform)
    t_fh.SetProjection(levelMosaicInfo.projection)
    for band in range(1, bands + 1):
        t_band = t_fh.GetRasterBand(band)
        if levelMosaicInfo.ct is not None:
            t_band.SetRasterColorTable(levelMosaicInfo.ct)
        t_band.SetRasterColorInterpretation(levelMosaicInfo.ci[band - 1])

    if levelMosaicInfo.nodata is not None:
        for band in range(1, bands + 1):
            t_band = t_fh.GetRasterBand(band)
            t_band.Fill(levelMosaicInfo.nodata)
            t_band.SetNoDataValue(levelMosaicInfo.nodata)

    # reproject source filehandle to target filehandle
    res = gdal.ReprojectImage(s_fh, t_fh, None, None, g.ResamplingMethod)
    if res != 0:
        print(
            "Reprojection failed for %s, error %d" % (temp_tilename, res),
            file=sys.stderr,
        )
        return 1

    levelMosaicInfo.closeDataSet(s_fh)

    # move the temporary dataset to the final location and path
    if g.MemDriver is None:
        t_fh.FlushCache()
    else:
        tt_fh = g.Driver.CreateCopy(temp_tilename, t_fh, 0, g.CreateOptions)
        tt_fh.FlushCache()
        tt_fh = None

    t_fh = None

    _renameDataset(g, temp_tilename, tileName)

    if g.Verbose:
        print(
            tileName
            + " : "
            + str(offsetX)
            + "|"
            + str(offsetY)
            + "-->"
            + str(width)
            + "-"
            + str(height)
        )


def createTile(
    g, minfo, offsetX, offsetY, width, height, tilename, OGRDS, feature_only
):
    """
    Create add a vector feature representing the tile to the index, then recreate the

    Args:
        g (RetileGlobals): object with global script variables
        minfo (mosaic_info): mosiac_info object
        offsetX (int): The offset in the X direction.
        offsetY (int): The offset in the Y direction.
        width (int): The width of the tile.
        height (int): The height of the tile.
        tilename (str): The name of the tile.
        OGRDS (DataSource): The OGR DataSource object containing the tile index
        feature_only (bool): Whether to only generate features.

    """
    temp_tilename = _createTempFileName(tilename)

    if g.BandType is None:
        bt = minfo.band_type
    else:
        bt = g.BandType

    dec = AffineTransformDecorator(
        [minfo.ulx, minfo.scaleX, 0, minfo.uly, 0, minfo.scaleY]
    )

    geotransform = [
        dec.ulx + offsetX * dec.scaleX,
        dec.scaleX,
        0,
        dec.uly + offsetY * dec.scaleY,
        0,
        dec.scaleY,
    ]

    # if -resume flag and the tile is present, add it to the index and exit function
    if feature_only:
        dec2 = AffineTransformDecorator(geotransform)
        points = dec2.pointsFor(width, height)
        addFeature(g.TileIndexFieldName, OGRDS, tilename, points[0], points[1])
        return

    s_fh = minfo.getDataSet(
        dec.ulx + offsetX * dec.scaleX,
        dec.uly + offsetY * dec.scaleY + height * dec.scaleY,
        dec.ulx + offsetX * dec.scaleX + width * dec.scaleX,
        dec.uly + offsetY * dec.scaleY,
    )
    # if there is no data in that tile area return None
    if s_fh is None:
        return

    # add the tile to the tile index
    dec2 = AffineTransformDecorator(geotransform)
    points = dec2.pointsFor(width, height)
    addFeature(g.TileIndexFieldName, OGRDS, tilename, points[0], points[1])

    bands = minfo.bands

    if g.MemDriver is None:
        t_fh = g.Driver.Create(temp_tilename, width, height, bands, bt, g.CreateOptions)
    else:
        t_fh = g.MemDriver.Create("", width, height, bands, bt)

    if t_fh is None:
        print("Creation failed, terminating gdal_tile.", file=sys.stderr)
        return 1

    t_fh.SetGeoTransform(geotransform)
    if g.Source_SRS is not None:
        t_fh.SetProjection(g.Source_SRS.ExportToWkt())

    readX = min(s_fh.RasterXSize, width)
    readY = min(s_fh.RasterYSize, height)
    for band in range(1, bands + 1):
        s_band = s_fh.GetRasterBand(band)
        t_band = t_fh.GetRasterBand(band)
        if minfo.ct is not None:
            t_band.SetRasterColorTable(minfo.ct)
        if minfo.nodata is not None:
            t_band.Fill(minfo.nodata)
            t_band.SetNoDataValue(minfo.nodata)

        data = s_band.ReadRaster(0, 0, readX, readY, readX, readY, t_band.DataType)
        t_band.WriteRaster(0, 0, readX, readY, data, readX, readY, t_band.DataType)

    minfo.closeDataSet(s_fh)

    if g.MemDriver is None:
        t_fh.FlushCache()
    else:
        tt_fh = g.Driver.CreateCopy(temp_tilename, t_fh, 0, g.CreateOptions)
        tt_fh.FlushCache()
        tt_fh = None

    t_fh = None

    _renameDataset(g, temp_tilename, tilename)

    if g.Verbose:
        print(
            tilename
            + " : "
            + str(offsetX)
            + "|"
            + str(offsetY)
            + "-->"
            + str(width)
            + "-"
            + str(height)
        )


def createTileIndex(Verbose, dsName, fieldName, srs, driverName):
    with gdal.ExceptionMgr(useExceptions=False):
        OGRDriver = ogr.GetDriverByName(driverName)
        if OGRDriver is None:
            print("ESRI Shapefile driver not found", file=sys.stderr)
            return 1

        OGRDataSource = OGRDriver.Open(dsName)
        if OGRDataSource is not None:
            OGRDataSource.Close()
            OGRDriver.DeleteDataSource(dsName)
            if Verbose:
                print("truncating index " + dsName)

        OGRDataSource = OGRDriver.CreateDataSource(dsName)
        if OGRDataSource is None:
            print("Could not open datasource " + dsName, file=sys.stderr)
            return 1

        OGRLayer = OGRDataSource.CreateLayer("index", srs, ogr.wkbPolygon)
        if OGRLayer is None:
            print("Could not create Layer", file=sys.stderr)
            return 1

        OGRFieldDefn = ogr.FieldDefn(fieldName, ogr.OFTString)
        if OGRFieldDefn is None:
            print("Could not create FieldDefn for " + fieldName, file=sys.stderr)
            return 1

        OGRFieldDefn.SetWidth(256)
        if OGRLayer.CreateField(OGRFieldDefn) != 0:
            print("Could not create Field for " + fieldName, file=sys.stderr)
            return 1

        return OGRDataSource


def addFeature(TileIndexFieldName, OGRDataSource, location, xlist, ylist):
    OGRLayer = OGRDataSource.GetLayer()
    OGRFeature = ogr.Feature(OGRLayer.GetLayerDefn())
    if OGRFeature is None:
        print("Could not create Feature", file=sys.stderr)
        return 1

    OGRFeature.SetField(TileIndexFieldName, location)
    wkt = "POLYGON ((%f %f,%f %f,%f %f,%f %f,%f %f ))" % (
        xlist[0],
        ylist[0],
        xlist[1],
        ylist[1],
        xlist[2],
        ylist[2],
        xlist[3],
        ylist[3],
        xlist[0],
        ylist[0],
    )
    OGRGeometry = ogr.CreateGeometryFromWkt(wkt, OGRLayer.GetSpatialRef())
    if OGRGeometry is None:
        print("Could not create Geometry", file=sys.stderr)
        return 1

    OGRFeature.SetGeometryDirectly(OGRGeometry)

    OGRLayer.CreateFeature(OGRFeature)


def closeTileIndex(OGRDataSource):
    OGRDataSource.Close()


def buildPyramid(g, minfo, createdTileIndexDS, tileWidth, tileHeight, overlap):
    inputDS = createdTileIndexDS
    for level in range(1, g.Levels + 1):
        g.LastRowIndx = -1
        levelMosaicInfo = mosaic_info(minfo.filename, inputDS)
        levelOutputTileInfo = tile_info(
            int(levelMosaicInfo.xsize / 2),
            int(levelMosaicInfo.ysize / 2),
            tileWidth,
            tileHeight,
            overlap,
        )
        inputDS = buildPyramidLevel(g, levelMosaicInfo, levelOutputTileInfo, level)


def buildPyramidLevel(g, levelMosaicInfo, levelOutputTileInfo, level):
    """
    Build the pyramids at level N and returns an OGR dataset of the tile index at that level
    """
    yRange = list(range(1, levelOutputTileInfo.countTilesY + 1))
    xRange = list(range(1, levelOutputTileInfo.countTilesX + 1))

    OGRDS = createTileIndex(
        g.Verbose,
        "TileResult_" + str(level),
        g.TileIndexFieldName,
        g.Source_SRS,
        g.TileIndexDriverTyp,
    )

    for yIndex in yRange:
        for xIndex in xRange:
            offsetY = (yIndex - 1) * (
                levelOutputTileInfo.tileHeight - levelOutputTileInfo.overlap
            )
            offsetX = (xIndex - 1) * (
                levelOutputTileInfo.tileWidth - levelOutputTileInfo.overlap
            )
            height = levelOutputTileInfo.tileHeight
            width = levelOutputTileInfo.tileWidth

            if offsetX + width > levelOutputTileInfo.width:
                width = levelOutputTileInfo.width - offsetX
            if offsetY + height > levelOutputTileInfo.height:
                height = levelOutputTileInfo.height - offsetY

            tilename = getTileName(
                g, levelMosaicInfo, levelOutputTileInfo, xIndex, yIndex, level
            )

            feature_only = g.Resume and os.path.exists(tilename)
            createPyramidTile(
                g,
                levelMosaicInfo,
                offsetX,
                offsetY,
                width,
                height,
                tilename,
                OGRDS,
                feature_only,
            )

    if g.TileIndexName is not None:
        shapeName = getTargetDir(g, level) + g.TileIndexName
        copyTileIndexToDisk(g, OGRDS, shapeName)

    if g.CsvFileName is not None:
        csvName = getTargetDir(g, level) + g.CsvFileName
        copyTileIndexToCSV(g, OGRDS, csvName)

    return OGRDS


def getTileName(g, minfo, ti, xIndex, yIndex, level=-1):
    """
    creates the tile file name
    """
    maxim = ti.countTilesX
    if ti.countTilesY > maxim:
        maxim = ti.countTilesY
    countDigits = len(str(maxim))
    parts = os.path.splitext(os.path.basename(minfo.filename))
    if parts[0][0] == "@":  # remove possible leading "@"
        parts = (parts[0][1 : len(parts[0])], parts[1])

    yIndex_str = ("%0" + str(countDigits) + "i") % (yIndex,)
    xIndex_str = ("%0" + str(countDigits) + "i") % (xIndex,)

    if g.UseDirForEachRow:
        frmt = (
            getTargetDir(g, level)
            + str(yIndex)
            + os.sep
            + parts[0]
            + "_"
            + yIndex_str
            + "_"
            + xIndex_str
        )
        # See if there was a switch in the row, if so then create new dir for row.
        if g.LastRowIndx < yIndex:
            g.LastRowIndx = yIndex
            if not os.path.exists(getTargetDir(g, level) + str(yIndex)):
                os.mkdir(getTargetDir(g, level) + str(yIndex))
    else:
        frmt = getTargetDir(g, level) + parts[0] + "_" + yIndex_str + "_" + xIndex_str
    # Check for the extension that should be used.
    if g.Extension is None:
        frmt += parts[1]
    else:
        frmt += "." + g.Extension
    return frmt


def UsageFormat():
    print("Valid formats:")
    count = gdal.GetDriverCount()
    for index in range(count):
        driver = gdal.GetDriver(index)
        print(driver.ShortName)
    return 1


# =============================================================================


def Usage(isError):
    f = sys.stderr if isError else sys.stdout
    print("Usage: gdal_retile [--help] [--help-general]", file=f)
    print("        [-v] [-q] [-co <NAME>=<VALUE>]... [-of <out_format>]", file=f)
    print("        [-ps <pixelWidth> <pixelHeight>]", file=f)
    print("        [-overlap <val_in_pixel>]", file=f)
    print("        [-ot  {Byte|Int8|Int16|UInt16|UInt32|Int32|Float32|Float64|", file=f)
    print("               CInt16|CInt32|CFloat32|CFloat64}]", file=f)
    print("        [-tileIndex <tileIndexName> [-tileIndexField <fieldName>]]", file=f)
    print("        [-csv <fileName> [-csvDelim <delimiter>]]", file=f)
    print("        [-s_srs <srs_def>]  [-pyramidOnly] -levels <numberoflevels>", file=f)
    print("        [-r {near|bilinear|cubic|cubicspline|lanczos}]", file=f)
    print("        [-useDirForEachRow] [-resume]", file=f)
    print("        -targetDir <TileDirectory> <input_file> [<input_file>]...", file=f)
    return 2 if isError else 0


@enable_gdal_exceptions
def main(args=None, g=None):

    if g is None:
        g = RetileGlobals()

    if args is None:
        args = sys.argv
    argv = gdal.GeneralCmdLineProcessor(args)
    if argv is None:
        return 0

    # Parse command line arguments.
    i = 1
    while i < len(argv):
        arg = argv[i]

        if arg == "--help":
            return Usage(isError=False)
        elif arg == "-of" or arg == "-f":
            i += 1
            g.Format = argv[i]
        elif arg == "-ot":
            i += 1
            g.BandType = gdal.GetDataTypeByName(argv[i])
            if g.BandType == gdal.GDT_Unknown:
                print("Unknown GDAL data type: %s" % argv[i], file=sys.stderr)
                return 1
        elif arg == "-co":
            i += 1
            g.CreateOptions.append(argv[i])

        elif arg == "-v":
            g.Verbose = True
        elif arg == "-q":
            g.Quiet = True

        elif arg == "-targetDir":
            i += 1
            g.TargetDir = argv[i]

            if not os.path.exists(g.TargetDir):
                print("TargetDir " + g.TargetDir + " does not exist", file=sys.stderr)
                return 1
            if g.TargetDir[len(g.TargetDir) - 1 :] != os.sep:
                g.TargetDir = g.TargetDir + os.sep

        elif arg == "-ps":
            i += 1
            g.TileWidth = int(argv[i])
            i += 1
            g.TileHeight = int(argv[i])

        elif arg == "-overlap":
            i += 1
            g.Overlap = int(argv[i])

        elif arg == "-r":
            i += 1
            ResamplingMethodString = argv[i]
            if ResamplingMethodString == "near":
                g.ResamplingMethod = gdal.GRA_NearestNeighbour
            elif ResamplingMethodString == "bilinear":
                g.ResamplingMethod = gdal.GRA_Bilinear
            elif ResamplingMethodString == "cubic":
                g.ResamplingMethod = gdal.GRA_Cubic
            elif ResamplingMethodString == "cubicspline":
                g.ResamplingMethod = gdal.GRA_CubicSpline
            elif ResamplingMethodString == "lanczos":
                g.ResamplingMethod = gdal.GRA_Lanczos
            else:
                print("Unknown resampling method: %s" % ResamplingMethodString)
                return 1
        elif arg == "-levels":
            i += 1
            g.Levels = int(argv[i])
            if g.Levels < 1:
                print("Invalid number of levels : %d" % g.Levels)
                return 1
        elif arg == "-s_srs":
            i += 1
            g.Source_SRS = osr.SpatialReference()
            if g.Source_SRS.SetFromUserInput(argv[i]) != 0:
                print("invalid -s_srs: " + argv[i])
                return 1

        elif arg == "-pyramidOnly":
            g.PyramidOnly = True
        elif arg == "-tileIndex":
            i += 1
            g.TileIndexName = argv[i]
            parts = os.path.splitext(g.TileIndexName)
            if not parts[1]:
                g.TileIndexName += ".shp"

        elif arg == "-tileIndexField":
            i += 1
            g.TileIndexFieldName = argv[i]
        elif arg == "-csv":
            i += 1
            g.CsvFileName = argv[i]
            parts = os.path.splitext(g.CsvFileName)
            if not parts[1]:
                g.CsvFileName += ".csv"
        elif arg == "-csvDelim":
            i += 1
            g.CsvDelimiter = argv[i]
        elif arg == "-useDirForEachRow":
            g.UseDirForEachRow = True
        elif arg == "-resume":
            g.Resume = True
        elif arg[:1] == "-":
            print("Unrecognized command option: %s" % arg, file=sys.stderr)
            return Usage(isError=True)

        else:
            g.Names.append(arg)
        i += 1

    if not g.Names:
        print("No input files selected.")
        return Usage(isError=True)

    if g.TileWidth == 0 or g.TileHeight == 0:
        print(
            "Invalid tile dimension %d,%d" % (g.TileWidth, g.TileHeight),
            file=sys.stderr,
        )
        return 1
    if g.TileWidth - g.Overlap <= 0 or g.TileHeight - g.Overlap <= 0:
        print("Overlap too big w.r.t tile height/width", file=sys.stderr)
        return 1

    if g.TargetDir is None:
        print("Missing Directory for Tiles -targetDir", file=sys.stderr)
        return Usage(isError=True)

    # create level 0 directory if needed
    if g.UseDirForEachRow and not g.PyramidOnly:
        leveldir = g.TargetDir + str(0) + os.sep
        if not os.path.exists(leveldir):
            os.mkdir(leveldir)

    if g.Levels > 0:  # prepare Dirs for pyramid
        startIndx = 1
        for levelIndx in range(startIndx, g.Levels + 1):
            leveldir = g.TargetDir + str(levelIndx) + os.sep
            if os.path.exists(leveldir):
                continue
            os.mkdir(leveldir)
            if not os.path.exists(leveldir):
                print("Cannot create level dir: %s" % leveldir, file=sys.stderr)
                return 1
            if g.Verbose:
                print("Created level dir: %s" % leveldir, file=sys.stderr)

    g.Driver = gdal.GetDriverByName(g.Format)
    if g.Driver is None:
        print(
            "Format driver %s not found, pick a supported driver." % g.Format,
            file=sys.stderr,
        )
        return UsageFormat()

    DriverMD = g.Driver.GetMetadata()
    g.Extension = DriverMD.get(gdal.DMD_EXTENSION)
    if "DCAP_CREATE" not in DriverMD:
        g.MemDriver = gdal.GetDriverByName("MEM")

    tileIndexDS = getTileIndexFromFiles(g)
    if tileIndexDS is None:
        print("Error building tile index", file=sys.stderr)
        return 1
    minfo = mosaic_info(g.Names[0], tileIndexDS)
    ti = tile_info(minfo.xsize, minfo.ysize, g.TileWidth, g.TileHeight, g.Overlap)

    if g.Source_SRS is None and minfo.projection:
        g.Source_SRS = osr.SpatialReference()
        if g.Source_SRS.SetFromUserInput(minfo.projection) != 0:
            print("invalid projection  " + minfo.projection, file=sys.stderr)
            return 1

    if g.Verbose:
        minfo.report()
        ti.report()

    if not g.PyramidOnly:
        dsCreatedTileIndex = tileImage(g, minfo, ti)
        tileIndexDS.Close()
    else:
        dsCreatedTileIndex = tileIndexDS

    if g.Levels > 0:
        buildPyramid(g, minfo, dsCreatedTileIndex, g.TileWidth, g.TileHeight, g.Overlap)

    if g.Verbose:
        print("FINISHED")
    return 0


class RetileGlobals:
    __slots__ = [
        "Verbose",
        "Quiet",
        "CreateOptions",
        "Names",
        "TileWidth",
        "TileHeight",
        "Overlap",
        "Format",
        "BandType",
        "Driver",
        "Extension",
        "MemDriver",
        "TileIndexFieldName",
        "TileIndexName",
        "TileIndexDriverTyp",
        "CsvDelimiter",
        "CsvFileName",
        "Source_SRS",
        "TargetDir",
        "ResamplingMethod",
        "Levels",
        "PyramidOnly",
        "LastRowIndx",
        "UseDirForEachRow",
        "Resume",
    ]

    def __init__(self):
        """Only used for unit tests"""
        self.Verbose = False
        self.Quiet = False
        self.CreateOptions = []
        self.Names = []
        self.TileWidth = 256
        self.TileHeight = 256
        self.Overlap = 0
        self.Format = "GTiff"
        self.BandType = None
        self.Driver = None
        self.Extension = None
        self.MemDriver = None
        self.TileIndexFieldName = "location"
        self.TileIndexName = None
        self.TileIndexDriverTyp = "Memory"
        self.CsvDelimiter = ";"
        self.CsvFileName = None

        self.Source_SRS = None
        self.TargetDir = None
        self.ResamplingMethod = gdal.GRA_NearestNeighbour
        self.Levels = 0
        self.PyramidOnly = False
        self.LastRowIndx = -1
        self.UseDirForEachRow = False
        self.Resume = False


if __name__ == "__main__":
    sys.exit(main(sys.argv))
